XU Rui, JI Song, SONG Jiaxuan, LI Dongzi, FAN Dazhao, LI Kai. Block Adjustment of Satellite Images Using Line-of-Sight Direction Angle Correction[J]. Geomatics and Information Science of Wuhan University, 2025, 50(1): 133-143. DOI: 10.13203/j.whugis20220434
Citation: XU Rui, JI Song, SONG Jiaxuan, LI Dongzi, FAN Dazhao, LI Kai. Block Adjustment of Satellite Images Using Line-of-Sight Direction Angle Correction[J]. Geomatics and Information Science of Wuhan University, 2025, 50(1): 133-143. DOI: 10.13203/j.whugis20220434

Block Adjustment of Satellite Images Using Line-of-Sight Direction Angle Correction

  • Objectives For the satellite images with large attitude measurement error, wide field angle and weak intersection, the traditional block adjustment of rational function mode (RFM) has limited error compensation ability. Although establishing error model from the object-space can avoid the limitations, the model construction of existing methods is more complicated.
    Methods First, the line-of-sight vector of image point is recovered by RFM. Then, the error model for the line-of-sight direction angle is constructed, with a number of parameters consistent with the traditional method. Finally, the model parameters are solved by block adjustment.
    Results Experiments on simulated and real Gaofen-1 wide field view satellite images show that the proposed method can always maintain an image-side positioning accuracy of about 1 pixel under different angular element errors. When using 13 control points, the plane positioning accuracy can reach 12.63 m, and the elevation positioning accuracy can reach 17.20 m. Experiments on Gaofen-2 satellite images with intersection angle of only 0.05° show that this method can obtain an adjustment convergence result with an image-side positioning accuracy of 1.89 pixel.
    Conclusions Compared with the traditional methods, the method using line-of-sight direction angle correction can achieve better and more stable positioning results for the satellite images with large attitude measurement errors and wide field angles, and can obtain convergence results without weak intersection detection and digital elevation model assistance in the block adjustment under weak intersection conditions.
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